Development of Inland Aquaculture in India, with special reference to Hypophysation Technology
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Authors
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Rai Milan Bhowmick
Abstract
Fish husbandry has emerged as a major source of animal protein for the expanding human population in the world. Fish not only provides nutrition but also resists some diseases. In India population is in the increase. It is estimated that by 2020 AD population will reach at 1.4 billion (P.Kumar,2000) increasing the gap between the demand and supply of fish.Inland aquaculture which is a major contributor in fish production in inland sector is extended throughout the country even in the interior region of the rural sector. To
reduce the gap between demand and supply the country has to rely on aquaculture which is indicating increasing trend in fish production. Fish culture is an age old practice
References
Adewolu MA, Ikenweiwe NB, Mulero SM (2010) Evaluation of
an animal protein mixture as a replacement for fishmeal
in practical diets for fingerlings of Clarias gariepinus
(Burchell, 1822). The Israeli Journal of Aquaculture -
Bamidgeh, 62(4):237-244
AOAC, 1995. Official Methods of Analysis of AOAC
International, Vol. 1, 16thedn. (ed. Cunniff, P. A.). AOAC
International, Arlington, USA
Bondari K, Sheppard DC (1987) Soldier fly, Hermetia illucens
L., larvae as feed for channel catfish, Ictalurus punctatus
(Rafinesque), and blue tilapia, Oreochromis aureus
(Steindachner). Aquaculture and Fisheries Management,
:209-220
Diener S, Zurbruegg C, Tockner K (2009) Conversion of
organic material by black soldier fly larvae: establishing
optimal feeding rates. Waste Management and Research,
(6):603-610
Djissou Arnauld, Ochiai Akito, Koshio Shunsuke, Fiogbe Emile
(2017) Effect of total replacement of fishmeal by
earthworm and Azolla filiculoides meals in the diets of
Nile tilapia Oreochromis niloticus (Linnaeus, 1758) reared
in concrete tanks. Indian Journal of Fisheries, 64(1):31
Duncan, DB (1955) Multiple range and multiple F tests.
Biometrics, 11:1-42
Emre Y, Sevgili H, Diler I (2003) Turkish Journal of Fisheries
and aquatic sciences, 3:81-85
FAO, 2016. The State of World Fisheries and Aquaculture.
FAO- I5798EN/2/01.17. Pp 16
Gasco L, Belforti M, Rotolo L, Lussiana C, Parisi G, Terova G,
Roncarati A, Gai F (2014) Mealworm (Tenebrio molitor)
as a potential ingredient in practical diets for rainbow
trout (Oncorhynchus mykiss). In: Abstract book of the
international conference 'Insects to feed the world',
-17 May 2014, Ede, the Netherlands, pp. 69
Glencross B, Booth M, Allan GL (2007) A feed is only as good as
its ingredients - A review of ingredient evaluation for
aquaculture feeds. Aquaculture Nutrition, 13(1):17 - 34
Guo J, Wang Y, Bureau DP (2007) Inclusion of rendered animal
ingredients as fish meal substitutes in practical diets for cuneate drum, Nibea miichthioides. Aquaculture
Nutrition, 13:18-87
Halver JE (1976) The nutritional requirements of cultivated
warm water and cold water fish species. Paper no. 31.
FAO Technical Conference on Aquaculture, Kyoto, 26
may to 2 June, Pp.9
Hong Ji, Jian-Lu Zhang, Ji-Qin Huang, Xiao-Fei Cheng, Chao
Liu (2015) Effect of replacement of dietary fish meal
with silkworm pupae meal on growth performance, body
composition, intestinal protease activity and health
status in juvenile Jian carp (Cyprinus carpio var. Jian).
Aquaculture Research, 46(5):Pp. 1209-1221
Kroeckel S, Harjes AGE, Roth I, Katz H, Wuertz S, Susenbeth A,
Schulz C (2012) When a turbot catches a fly: evaluation
of a pre-pupae meal of the black soldier fly (Hermetia
illucens) as fish meal substitute - Growth performance
and chitin degradation in juvenile turbot (Psetta maxima).
Aquaculture and Fisheries Management, 364:345-352
Lock E, Arsiwalla T, Waagbo R (2015) Insect larvae meal as an
alternative source of nutrients in the diet of Atlantic
salmon (Salmo salar) postsmolt. Aquaculture Nutrition,
:1202-1213
Mohapatra SB, Patra AK (2014) Growth response of common
carp (Cyprinus carpio) to different feed ingredients
incorporate diets. Advances in Applied Science Research,
(1):169-173
Naylor RL, Goldburg RJ, Primavera JH, Kautsky N, Beveridge
MC, Clay J, Folke C, Lubchenco J, Mooney H, Troell M
(2000) Effect of aquaculture on world fish supplies.
Nature, 405(6790):1017-1024
Newton GL, Sheppard DC, Watson DW, Burtle GJ, Dove
CR,Tomberlin JK, Thelen EE (2005) The black soldier
fly, Hermetia illucens, as a manure management/resource
recovery tool. In: Symposium on the State of the
Science of Animal Manure and Waste Management, San
Antonio, TX, USA
Millamena OM (2002) Replacement of fish meal by
animal by-product meals in a practical diet for grow-out
culture of grouper Epinephelus coioides. Aquaculture, 204:
-84
Phonekhampheng O (2008) On-Farm Feed Resources for
Catfish (Clarias gariepinus) Production in Laos:
Evaluation of Some Local Feed Resources. Ph.D. thesis,
Swedish University of Agricultural Sciences, Uppsala.
pp
Renna M, Schiavone A, Gai F, Dabbou S, Lussiana C, Malfatto
V, Prearo M, Capucchio MT, Biasato I, Biasibetti E, De
Marco M, Brugiapaglia A, Zoccarato I, Gasco L (2017)
Evaluation of the suitability of a partially defatted black
soldier fly (Hermetia illucens L.) larvae meal as
ingredient for rainbow trout (Oncorhynchus mykiss
Walbaum) diets. Journal of Animal Science and
Biotechnology, 8:57
Sealey WM, Gaylord TG, Barrows FT, Tomberlin JK, McGuire
MA, Ross C, St-Hilaire S (2011) Sensory analysis of
rainbow trout, Oncorhynchus mykiss, fed enriched black
soldier fly prepupae, Hermetia illucens. Journal of the
World Aquaculture Society, 42:34-45
Shakil Rana KM, MA Salam, Shaharior Hashem, Md. Ariful
Islam (2015) Development of Black Soldier Fly Larvae
Production Technique as an Alternate Fish Feed. International Journal of Research in Fisheries and
Aquaculture, 5(1):41-47
Sheppard DC (1983) House fly, Musca domestica, and Lesser
Fly, Fannia canicularis, control using the Black Soldier
Fly, Hermetia illucens, in manure management systems
for caged laying hens. Environmental Entomology,
(5):1439-1442
Stamer A, Wesselss S, Neidigk R, Hoerstgen-Schwark G (2014)
Black Soldier Fly (Hermetia illucens) larvae-meal as an
example for a new feed ingredients' class in aquaculture
diets. In: Proceedings of the 4th ISOFAR Scientific
Conference. 'Building Organic Bridges', at the Organic
World Congress 2014, 13-15 Oct., Istanbul, Turkey
(eprint ID 24223) edited by Rahmann G & Aksoy U. Pp
-1046
St-Hilaire S, Sheppard C, Tomberlin JK, Irving S, Newton L,
McGuire MA, Mosley EE, Hardy RW, Sealey W (2007)
Fly Prepupae as a Feedstuff for Rainbow Trout,
Oncorhynchus mykiss. Journal of the World
Aquaculture Society, 38:59-67
Tacon AGJ, Hasan MR, Metian M (2011) Demand and Supply
of feed ingredients for farmed fish and crustaceans: Trends
and Prospects. Technical Paper No 564, Food and
Agriculture Organization of the United Nations, Rome,
Italy
Windsor ML (2001) Torry Research Station, Torry Advisory
Note No. 49. FAO Corporate Document Depository.
www.fao.org/wairdocs/tan/x5926e/x5926e01.htm
Yu G-H, Chen Y-H (2009) Research progression on the larvae
and prepupae of black soldier fly Hermetia illucens used
as animal feedstuff. Chinese Bulletin of Entomology,
(1):41-45
Zhang J, Zheng L, Jin P, Zhang D, Yu Z (2014) Fishmeal
substituted by production of chicken manure conversion
with microorganisms and black soldier fly. In: Abstract
book of the international conference Insects to feed the
world, 14-17 May 2014, Ede, the Netherlands, pp.
-17
Zhou JS, Liu SS, Ji H, Yu HB (2018) Effect of replacing dietary
fish meal with black soldier fly larvae meal on growth
and fatty acid composition of Jian carp (Cyprinus carpio
var. Jian). Aquaculture Nutrition, 24:424-433
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